End-Of-Line Test Method and System

This application is a continuation of International Patent Application No. PCT/CN2024/071351, filed on Jan. 9, 2024, which claims priority to Chinese Patent Application No. 202311293184.0, filed on Oct. 8, 2023. The contents of these applications are incorporated herein by reference in their entirety.

This application relates to the field of battery technologies, and in particular, to an end-of-line test method and system.

New energy batteries are increasingly widely used in life and industries. For example, new energy vehicles equipped with batteries have been widely used. In addition, batteries are increasingly used in the field of energy storage.

Currently, a test formula of a product is manually set on an upper-level computer to test the product, leading to low configuration efficiency. In addition, there may be a problem of incorrect configuration of the test formula. In other words, how to improve generation efficiency and accuracy of a test formula is an urgent problem to be resolved currently.

Embodiments of this disclosure provide an end-of-line test method and system, which can effectively improve generation efficiency and accuracy of a test formula, thereby improving test efficiency.

The technical solutions of the embodiments of this disclosure are implemented as follows.

According to a first aspect, an embodiment of this disclosure provides an end-of-line test method applied to a test system. The test system includes an upper-level computer, a test device, and a test requirement structured system, and the method includes:

the upper-level computer converts the initial test formula into a target test formula in an extensible markup language format; and the upper-level computer controls, based on the target test formula, the test device to test a product to obtain a test result. The upper-level computer obtains an initial test formula from the test requirement structured system in response to a test formula download instruction, where the test requirement structured system is configured to generate the initial test formula based on a test item requirement, and the initial test formula includes related information of the test item requirement;

In this embodiment, the test requirement structured system may generate the initial test formula based on the test item requirement. When receiving the test formula download instruction, the upper-level computer may directly obtain the initial test formula from the test requirement structured system, and then convert the initial test formula into the target test formula in the extensible markup language format, so that the target test formula for performing testing can be obtained without manual configuration on the upper-level computer. This can not only improve generation efficiency of a test formula but also improve accuracy of the test formula. In this way, the upper-level computer can directly test the product based on the target test formula, thereby effectively improving test efficiency.

the upper-level computer performs matching processing on the initial test formula and the test item library to obtain test item data in an extensible markup language format; the upper-level computer performs matching processing on the initial test formula and the instruction library to obtain an executable instruction in an extensible markup language format; and the upper-level computer generates the target test formula based on the test item data in the extensible markup language format and the executable instruction in the extensible markup language format. In some embodiments of this disclosure, a test item library and an instruction library are deployed on the upper-level computer, and that the upper-level computer converts the initial test formula into a target test formula in an extensible markup language format includes:

In this embodiment, when converting the initial test formula into the target test formula, the upper-level computer performs matching processing on the deployed test item library and instruction library and the initial test formula to obtain the test item data in the extensible markup language format and the executable instruction in the extensible markup language format, to form the target test formula. In this way, automatic conversion of the target test formula in the extensible markup language format is implemented. This improves the generation efficiency of the test formula.

the upper-level computer obtains, through querying, the initial test formula from test formula data stored in the test requirement structured system based on identification information indicated by the test formula download instruction, and downloads the initial test formula, where the identification information includes project identification information, production line identification information, and device identification information. In some embodiments of this disclosure, that the upper-level computer obtains an initial test formula from the test requirement structured system in response to a test formula download instruction includes:

In this embodiment, the test requirement structured system may pre-store a plurality of pieces of test formula data. When obtaining the initial test formula from the test requirement structured system, the upper-level computer may query the test requirement structured system based on the identification information indicated by the test formula download instruction to determine the initial test formula corresponding to the identification information and download the initial test formula. In this way, the initial test formula is accurately obtained.

when receiving formula modify operation information, the upper-level computer modifies the target test formula to obtain a modified test formula, where the formula modify operation information includes test item add operation information, test item delete operation information, and execution sequence modify operation information; and the upper-level computer controls, based on the modified test formula, the test device to test the product. In some embodiments of this disclosure, the method further includes:

In this embodiment, when receiving the formula modify operation information, the upper-level computer may modify the target test formula. The formula modify operation information includes the test item add operation information, the test item delete operation information, and the execution sequence modify operation information, so that the upper-level computer can correspondingly perform a test item add operation, a test item delete operation, and a test item execution sequence modify operation to flexibly modify the target test formula, and after obtaining the modified test formula, the upper-level computer can directly perform testing based on the modified test formula. This further improves the test efficiency.

the upper-level computer sends the modified test formula to the test requirement structured system, so that the test requirement structured system stores the modified test formula. In some embodiments of this disclosure, the method further includes:

In this embodiment, after obtaining the modified test formula, the upper-level computer may further send the modified test formula to the test requirement structured system for storage, so that when needing to obtain the modified test formula later, the upper-level computer can directly obtain the modified test formula from the test requirement structured system to perform testing without regenerating or being configured with the modified test formula. This improves obtaining efficiency of the test formula and test execution efficiency.

the upper-level computer generates a data report based on the test result and parameter code in the initial test formula, and sends the data report to the report system; and the report system checks the data report. In some embodiments of this disclosure, the test system further includes a report system, and after that the upper-level computer controls, based on the target test formula, the test device to test a product to obtain a test result, the method further includes:

In this embodiment, after obtaining the test result, the upper-level computer may further generate the data report based on the test result and the parameter code in the initial test formula, and send the data report to the report system, so that the report system can check the data report. This further improves test accuracy.

the test requirement structured system obtains related configuration information of a parameter of a test item in response to operation information of the test item parameter configuration module; the test requirement structured system obtains related configuration information of an operation step of the test item in response to operation information of the operation step library module; and the test requirement structured system generates the initial test formula based on the related configuration information of the parameter and the related configuration information of the operation step. In some embodiments of this disclosure, the test requirement structured system may include a test item parameter configuration module and an operation step library module, and the method further includes:

In this embodiment, the test requirement structured system includes the test item parameter configuration module and the operation step library module. The test requirement structured system may obtain the related configuration information of the parameter of the test item in response to the operation information of the test item parameter configuration module, and the test requirement structured system may obtain the related configuration information of the operation step of the test item in response to the operation information of the operation step library module, so that the test requirement structured system can generate the initial test formula based on the related configuration information of the parameter and the related configuration information of the operation step. This effectively improves the generation efficiency of the initial test formula.

the test requirement structured system obtains first parameter configuration information of the test item in response to first operation information corresponding to the first configuration module, where the first parameter configuration information includes at least a first parameter name, first parameter code, and a first parameter specification; the test requirement structured system obtains second parameter configuration information of the test item in response to second operation information corresponding to the second configuration module, where the second parameter configuration information includes at least a second parameter name, second parameter code, and a second parameter specification; and the test requirement structured system obtains the related configuration information of the parameter based on the first parameter configuration information and the second parameter configuration information. In some embodiments of this disclosure, the test item parameter configuration module includes a first configuration module and a second configuration module, and that the test requirement structured system obtains related configuration information of a parameter of a test item in response to operation information of the test item parameter configuration module includes:

In this embodiment, the test item parameter configuration module may include the first configuration module and the second configuration module. The test requirement structured system may obtain the first parameter configuration information of the test item in response to the first operation information corresponding to the first configuration module. The test requirement structured system may obtain the second parameter configuration information of the test item in response to the second operation information corresponding to the second configuration module. The first parameter configuration information may include at least the first parameter name, the first parameter code, and the first parameter specification, and the second parameter configuration information may include at least the second parameter name, the second parameter code, and the second parameter specification. In other words, the first configuration module and the second configuration module may be configured to provide related configuration information of different parameters of the test item, so that the test requirement structured system can obtain the related configuration information of the parameter based on the first parameter configuration information and the second parameter configuration information. This improves configuration efficiency of a test parameter.

the test requirement structured system sends the related configuration information of the parameter to the report system; and the report system checks the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter. In some embodiments of this disclosure, the method further includes:

In this embodiment, the test requirement structured system may further send the related configuration information of the parameter to the report system, so that the report system can check the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter. This further improves the test accuracy.

the test device is connected to the upper-level computer; the test requirement structured system is connected to the upper-level computer; the test requirement structured system is configured to generate an initial test formula based on a test item requirement, where the initial test formula includes related information of the test item requirement; and the upper-level computer is configured to: obtain the initial test formula from the test requirement structured system in response to a test formula download instruction, convert the initial test formula into a target test formula in an extensible markup language format, and control, based on the target test formula, the test device to test a product to obtain a test result. According to a second aspect, an embodiment of this disclosure provides a test system, including an upper-level computer, a test device, and a test requirement structured system, where

In this embodiment, the upper-level computer in the test system is connected to the test device and the test requirement structured system, so that the upper-level computer can obtain the initial test formula from the test requirement structured system when receiving the test formula download instruction. The initial test formula is generated by the test requirement structured system, and the upper-level computer may automatically convert the initial test formula into the target test formula in the extensible markup language format. This improves obtaining efficiency of the test formula. In this way, the upper-level computer can control, based on the target test formula, the test device to test the product. This improves test efficiency.

the report system is configured to: receive related configuration information of a parameter sent by the test requirement structured system and a data report sent by the upper-level computer, and check the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter. In some embodiments of this disclosure, the test system further includes a report system, and the report system is connected to the upper-level computer and the test requirement structured system; and

In these embodiment, the report system is connected to the upper-level computer and the test requirement structured system, so that the report system can receive the data report sent by the upper-level computer and the related configuration information of the parameter sent by the test requirement structured system. In this way, the report system can check the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter. This can further improve test accuracy and reliability.

The following clearly and completely describes the technical solutions in embodiments of this disclosure with reference to the accompanying drawings in the embodiments of this disclosure. It can be understood that the specific embodiments described herein are merely used to explain this application, but are not intended to limit this application. In addition, it should be noted that, for ease of description, only a part related to this application is shown in the accompanying drawings.

Currently, new energy batteries are increasingly widely used in life and industries. The new energy batteries are used in energy storage power supply systems such as hydroelectric power plants, thermal power plants, wind power plants, and solar power plants, and in many other fields including electric transportation tools such as electric bicycles, electric motorcycles, and electric vehicles, and aerospace. With the continuous expansion of application fields of power batteries, market demands for the power batteries are also increasing.

In the embodiments of this disclosure, a battery may be a battery cell (sometimes also referred to as a cell), and the battery may alternatively be a battery module or battery pack including a plurality of battery cells. A battery cell is a basic unit that can implement mutual conversion between chemical energy and electric energy, and can be configured to manufacture a battery module or a battery pack, to supply power to an electric apparatus. The battery cell may be a secondary battery, and the secondary battery is a battery cell whose active material can be activated for reuse through charging after the battery cell is discharged. The battery cell may be a lithium-ion battery, a sodium-ion battery, a sodium-lithium-ion battery, a lithium metal battery, a sodium metal battery, a lithium-sulfur battery, a magnesium-ion battery, a nickel-hydrogen battery, a nickel-cadmium battery, a lead storage battery, or the like. This is not limited in the embodiments of this disclosure.

To resolve a problem existing in the existing test method, the embodiments of this disclosure provide an end-of-line test method and system. The test system may include an upper-level computer, a test device, and a test requirement structured system. The upper-level computer may obtain an initial test formula from the test requirement structured system in response to a test formula download instruction, where the test requirement structured system is configured to generate the initial test formula based on a test item requirement, and the initial test formula includes related information of the test item requirement; convert the initial test formula into a target test formula in an extensible markup language format; and control, based on the target test formula, the test device to test a product to obtain a test result. This can effectively improve generation efficiency and accuracy of the test formula, thereby improving test efficiency.

The following clearly and completely describes the technical solutions in the embodiments of this disclosure with reference to the accompanying drawings in the embodiments of this disclosure.

1 FIG. 0 1 2 3 2 1 3 1 An embodiment of this disclosure provides an end-of-line (EOL) test method, applied to a test system. As shown in, the test systemmay include an upper-level computer, a test device, and a test requirement structured system. The test devicemay be connected to the upper-level computer, and the test requirement structured systemmay be connected to the upper-level computer.

1 3 2 The upper-level computermay be configured to: obtain an initial test formula from the test requirement structured system in response to a test formula download instruction, convert the initial test formula into a target test formula in an extensible markup language format, and control, based on the target test formula, the test device to test a product to obtain a test result. The test requirement structured systemmay be configured to generate the initial test formula based on a test item requirement. The test devicemay be configured to test the product.

2 FIG. 2 FIG. 1 is a schematic diagramof an implementation procedure of an end-of-line test method according to an embodiment of this disclosure. As shown in, the end-of-line test method may include the following steps.

101 Step: An upper-level computer obtains an initial test formula from a test requirement structured system in response to a test formula download instruction, where the test requirement structured system is configured to generate the initial test formula based on a test item requirement, and the initial test formula includes related information of the test item requirement.

In this embodiment of this disclosure, the upper-level computer in the test system may obtain the initial test formula from the test requirement structured system in response to the test formula download instruction. The test requirement structured system is configured to generate the initial test formula based on the test item requirement, and the initial test formula includes the related information of the test item requirement.

It should be noted that in this embodiment of this disclosure, the upper-level computer may receive the test formula download instruction, and then the upper-level computer may obtain the initial test formula from the test requirement structured system in response to the test formula download instruction.

In this embodiment of this disclosure, the test device may be a device for testing a product, and the upper-level computer may control the test device to test the product.

For example, a display interface of the upper-level computer displays a “download” icon. When the upper-level computer receives “download” icon trigger operation information of a user on the display interface, it may be considered that the upper-level computer receives the test formula download instruction, so that the upper-level computer can obtain the initial test formula from the test requirement structured system.

It should be noted that in this embodiment of this disclosure, the test requirement structured system may include a configuration module for editing the test item requirement. The test requirement structured system may configure the test item requirement in response to operation information corresponding to the configuration module to generate the initial test formula including the related information of the test item requirement.

In some embodiments of this disclosure, the test requirement structured system may be deployed on a server, and after obtaining the initial test formula, the test requirement structured system may store the initial test formula, for example, in the server.

In some embodiments of this disclosure, when obtaining the initial test formula from the test requirement structured system in response to the test formula download instruction, the upper-level computer may obtain, through querying, the initial test formula from test formula data stored in the test requirement structured system based on identification information indicated by the test formula download instruction, and download the initial test formula. The identification information includes project identification information, production line identification information, and device identification information.

In some embodiments of this disclosure, the project identification information may be a product number (PN) of a project, the production line identification information may be a number of a production line of a battery, and the device identification information may be a number of a work center corresponding to the test requirement structured system and a report system.

In these embodiments of this disclosure, each initial test formula may have corresponding identification information in the test formula data stored in the test requirement structured system, so that when querying the test formula data, the upper-level computer can query the test formula data based on the identification information indicated by the test formula download instruction, determine an initial test formula corresponding to identification information the same as the identification information indicated by the test formula download instruction, and download the initial test formula.

In some embodiments of this disclosure, the upper-level computer may download the initial test formula from the test requirement structured system through the file transfer protocol (FTP).

3 FIG. 1 5 3 5 1 114 5 3 5 117 For example, as shown in, the upper-level computermay download, through the FTP, the initial test formula from the serverin which the test requirement structured systemis located. The test requirement structured system may store the initial test formula in the serverafter obtaining the initial test formula, so that when downloading the initial test formula, the upper-level computercan download the initial test formulafrom the serverin which the test requirement structured systemis located. For example, the upper-level computer may query the test formula data in the serverbased on the identification informationincluding the project identification information, the production line identification information, and the device identification information, obtain the initial test formula matching the project identification information, the production line identification information, and the device identification information, and download the initial test formula.

102 Step: The upper-level computer converts the initial test formula into a target test formula in an extensible markup language format.

In these embodiments of this disclosure, the upper-level computer may convert the initial test formula into the target test formula in the extensible markup language format after obtaining the initial test formula from the test requirement structured system in response to the test formula download instruction.

It should be noted that in these embodiments of this disclosure, the target test formula is a test formula in an extensible markup language (XML) format.

In some embodiments of this disclosure, a test item library and an instruction library may be deployed on the upper-level computer.

In some embodiments of this disclosure, when converting the initial test formula into the target test formula in the extensible markup language format, the upper-level computer may perform matching processing on the initial test formula and the test item library to obtain test item data in an extensible markup language format, perform matching processing on the initial test formula and the instruction library to obtain an executable instruction in an extensible markup language format, and generate the target test formula based on the test item data in the extensible markup language format and the executable instruction in the extensible markup language format.

In these embodiments of this disclosure, the upper-level computer may include a file conversion module, and the upper-level computer may convert the initial test formula into the target test formula in the extensible markup language format by using the file conversion module.

It can be understood that in these embodiments of this disclosure, the upper-level computer may interact with the test requirement structured system, and perform automatic matching and loading on the test item library and the instruction library by using the file conversion module, to generate the target test formula with the executable instruction.

4 FIG. 4 FIG. 4 FIG. 4 FIG. 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 234 229 230 210 231 232 233 213 214 For example, as shown in, in a formula editoperation page in the display interface of the upper-level computer, the upper-level computer may receive a folder creation operation triggered by the user and create a folder for end-of-line testing. The folder is named in the same way as the project identification information, and a name format of the folder may be PCAR xxxx. For example, if the project identification information is 01-00242, the created folder is named PCAR 01-00242 as shown in, and a blank formula under the folder is EOL.xml. Then, after receiving a download operation triggered by clicking a download buttonby the user, the upper-level computer obtains the initial test formula from the test requirement structured system in response to the test formula download instruction, converts the initial test formula into the target test formula in the extensible markup language format, and displays a test item in the target test formula in the display interface. For example, the obtained target test formula includes four test items as shown in: short circuit detection, 12 V negative electrode resistance, program burning, and an insulation impedance test. In addition, it can be learned fromthat in addition to supporting creationof the folder, the upper-level computer may further support other operations on the folder, such as operations of adding, renaming, and deleting a file, and saving the file as, operations of adding, deleting, editing, updating, and collectingtest items, and operations of moving upand moving downan execution sequenceof a test item, parallelingtest items, and sortingtest items. In addition, the formula editoperation page may further include no-good (NG) processingon a test item. For example, the no-good processing may include an operation of continuing to perform testingand a quantity of retest times. For example, for short circuit detection, the quantity of retest times is 0, and for 12 V negative electrode resistance, the quantity of retest times is 1.

In some embodiments of this disclosure, when receiving formula modify operation information, the upper-level computer may further modify the target test formula to obtain a modified test formula, where the formula modify operation information includes test item add operation information, test item delete operation information, and execution sequence modify operation information; and control, based on the modified test formula, the test device to test the product.

It can be understood that in these embodiments of this disclosure, the test item add operation information may be used to continue to add a test item in the target test formula, the test item delete operation information may be used to delete a test item from the target test formula, and the execution sequence modify operation information may be used to modify an execution sequence of a test item in the target test formula.

4 FIG. 3 FIG. 218 223 227 228 230 For example, as shown in, when receiving operation information of adding(the test item add operation information), in the display interface, triggered by the user, the upper-level computer may continue to add a test item to a test item in the current target test formula. When receiving operation information of deleting(the test item delete operation information), in the display interface, triggered by the user, the upper-level computer may delete a test item from the current target test formula. When receiving icon operation information of moving up, moving down, and sorting(the execution sequence modify operation information), in the display interface, triggered by the user, the upper-level computer may modify an execution sequence of a test item in the current target test formula, such as the four test items in. Before the execution sequence is modified, short circuit detection is first performed, then 12 V negative electrode resistance is performed, then program burning is performed, and finally, the insulation impedance test is performed. An execution sequence of 12 V negative electrode resistance may be “moved up”, so that 12 V negative electrode resistance is first performed, and then short circuit detection is performed. Alternatively, program burning is “moved down”, so that program burning is last performed.

In some embodiments of this disclosure, after obtaining the modified test formula, the upper-level computer may further send the modified test formula to the test requirement structured system, so that the test requirement structured system stores the modified test formula.

For example, the upper-level computer may send the modified test formula to the test requirement structured system, and the test requirement structured system stores the modified test formula in the server in which the test requirement structured system is located.

In some embodiments of this disclosure, when the modified test formula needs to be used for product testing again, the upper-level computer may directly obtain the modified test formula from the test requirement structured system and perform testing without regenerating or being configured with the modified test formula. This facilitates subsequent retrieval and use, and can improve obtaining efficiency of the test formula and test execution efficiency.

5 FIG. 5 FIG. 235 235 236 237 238 In some embodiments of this disclosure, as shown in, the upper-level computer may further locally export the target test formula or the modified test formula in response to an operation of formula export, to perform testing. In addition, as shown in, in addition to in response to the operation of formula export, the upper-level computer may further support an operation of formula rename, an operation of saving a formula as, and an operation of formula delete.

103 Step: The upper-level computer controls, based on the target test formula, the test device to test a product to obtain a test result.

In these embodiments of this disclosure, after converting the initial test formula into the target test formula in the extensible markup language format, the upper-level computer may control, based on the target test formula, the test device to test the product to obtain the test result.

In these embodiments of this disclosure, the product may be a target under end-of-line test. For example, the product may be a battery, and an insulation resistance test, a withstand voltage test, or the like is performed on the battery.

In some embodiments of this disclosure, after controlling, based on the target test formula, the test device to test the product to obtain the test result, the upper-level computer may further generate a data report based on the test result and parameter code in the initial test formula, and send the data report to the report system, so that the report system can check the data report.

It should be noted that in these embodiments of this disclosure, the report system may be a report system corresponding to a manufacturing execution system (MES). The report system may be deployed on the server, and the report system may check the data report based on related configuration information of a parameter sent by the test requirement structured system to determine whether the data report is a data report corresponding to the product indicated by the related configuration information of the parameter.

In some embodiments of this disclosure, when the test item is the insulation impedance test, and the upper-level computer controls, based on the target test formula, the test device to test the product to obtain a test result, the upper-level computer may control, based on the target test formula, the test device to perform the insulation impedance test on the product to obtain a test result of the insulation impedance test. The test result of the insulation impedance test includes a parameter test result for testing a parameter of the insulation impedance test. The parameter of the insulation impedance test includes at least one of an insulation test voltage, an insulation limiting voltage, an insulation rising time, an insulation falling time, a positive insulation impedance to ground, and a negative insulation impedance to ground.

In some embodiments of this disclosure, when the test item is the short circuit detection, and the upper-level computer controls, based on the target test formula, the test device to test the product to obtain a test result, the upper-level computer may control, based on the target test formula, the test device to perform the short circuit detection on the product to obtain a test result of the short circuit detection. The test result of the short circuit detection includes a parameter test result for testing a parameter of the short circuit detection. The parameter of the short circuit detection includes at least one of a positive resistance to ground, a negative resistance to ground, and a positive-negative resistance.

In some embodiments of this disclosure, when the test item is the 12 V negative electrode resistance, and the upper-level computer controls, based on the target test formula, the test device to test the product to obtain a test result, the upper-level computer may control, based on the target test formula, the test device to perform the 12 V negative electrode resistance test on the product to obtain a test result of the 12 V negative electrode resistance test. The test result of the 12 V negative electrode resistance test includes a parameter test result for testing a parameter of the 12 V negative electrode resistance test. The parameter of the 12 V negative electrode resistance test may include a conducting resistance.

In some embodiments of this disclosure, when the test item is the program burning, and the upper-level computer controls, based on the target test formula, the test device to test the product to obtain a test result, the upper-level computer may control, based on the target test formula, the test device to perform the program burning test on the product to obtain a test result of the program burning test. The test result of the program burning test includes a parameter test result for testing a parameter of the program burning test. The parameter of the program burning test includes at least one of boot version information, battery management unit (BMU) software version information, and battery management unit hardware version information.

6 FIG. 6 FIG. 6 FIG. 7 FIG. 1 3 31 32 is a schematic diagramof a composition structure of the test requirement structured system according to an embodiment of this disclosure. As shown in, the test requirement structured systemmay include a test item parameter configuration moduleand an operation step library module. Based on, this embodiment of this disclosure provides an end-of-line test method. As shown in, the end-of-line test method may further include the following steps.

201 Step: The test requirement structured system obtains related configuration information of a parameter of a test item in response to operation information of the test item parameter configuration module.

In this embodiment of this disclosure, the test requirement structured system may obtain the related configuration information of the parameter of the test item in response to the operation information of the test item parameter configuration module.

In this embodiment of this disclosure, the test item parameter configuration module may be configured to configure the parameter of the test item. The related configuration information of the parameter may at least include a parameter name, parameter code, and parameter specification information.

For example, the test item is an insulation impedance test. The test item includes a parameter named an insulation test voltage. The insulation test voltage may be used as a parameter name, parameter code of the insulation test voltage is ABCDE, and parameter specification information may include related information of a product specification or a process specification corresponding to the insulation test voltage.

For example, the test item is short circuit detection. The test item includes three parameters named a positive resistance to ground, a negative resistance to ground, and a positive-negative resistance. The positive resistance to ground, the negative resistance to ground, and the positive-negative resistance may be used as parameter names.

For example, the test item is 12 V negative electrode resistance. The test item includes a parameter named a conducting resistance. The conducting resistance may be used as a parameter name.

For example, the test item is program burning. The test item includes three parameters named boot version information, battery management unit software version information, and battery management unit hardware version information. The boot version information, the battery management unit software version information, and the battery management unit hardware version information may be used as parameter names.

In some embodiments of this disclosure, in addition to the parameter name, the parameter code, and the parameter specification information, the related configuration information of the parameter may further include information such as test item execution process information, a number of a test item, a data storage manner, and a production device. For example, when the test item is the insulation impedance test, the test item execution process information may be description information of an execution process or execution step of the insulation impedance test, a number of the test item is a number of the insulation impedance test, for example, 12345, and the production device is, for example, a dielectric withstand tester.

In these embodiments of this disclosure, the operation information of the test item parameter configuration module may be operation information of obtaining the related configuration information of the parameter by using the test item parameter configuration module. When receiving the operation information of the test item parameter configuration module, in response to the operation information of the test item parameter configuration module, the test requirement structured system may obtain the related configuration information of the parameter of the test item corresponding to the operation information of the test item parameter configuration module.

8 FIG. 31 311 312 In some embodiments of this disclosure, as shown in, the test item parameter configuration modulemay include a first configuration moduleand a second configuration module.

It should be noted that in these embodiments of this disclosure, the first configuration module may be an end test requirement (ETR) module, and the first configuration module may be configured to provide related information of a test item and parameter specification.

It should be noted that in these embodiments of this disclosure, the second configuration module may be an end control plan (ECP) module, and the second configuration module may be configured to provide related information of a test item, product specification, and process specification.

In some embodiments of this disclosure, when obtaining the related configuration information of the parameter of the test item in response to the operation information of the test item parameter configuration module, the test requirement structured system may obtain first parameter configuration information of the test item in response to first operation information corresponding to the first configuration module, where the first parameter configuration information includes at least a first parameter name, first parameter code, and a first parameter specification; the test requirement structured system obtains second parameter configuration information of the test item in response to second operation information corresponding to the second configuration module, where the second parameter configuration information includes at least a second parameter name, second parameter code, and a second parameter specification; and the test requirement structured system obtains the related configuration information of the parameter based on the first parameter configuration information and the second parameter configuration information.

It should be noted that in these embodiments of this disclosure, the first operation information may be operation information of obtaining the first parameter configuration information of the test item by using the first configuration module. When receiving the first operation information, in response to the first operation information, the test requirement structured system may obtain the first parameter configuration information of the test item corresponding to the first operation information.

In these embodiments of this disclosure, the second operation information may be operation information of obtaining the second parameter configuration information of the test item by using the second configuration module. When receiving the second operation information, in response to the second operation information, the test requirement structured system may obtain the second parameter configuration information of the test item corresponding to the second operation information.

It can be understood that in these embodiments of this disclosure, the first configuration module and the second configuration module may be configured to provide related configuration information of different parameters, that is, the first parameter configuration information is different from the second parameter configuration information.

For example, the test item is the insulation impedance test. The first parameter configuration information obtained by using the first configuration module may include at least an insulation test voltage (the first parameter name), ABCDE (the first parameter code), and related information of a product specification or process specification corresponding to the insulation test voltage (the first parameter specification). The second parameter configuration information obtained by using the second configuration module may include at least an insulation limiting voltage (the second parameter name), FGHIJ (the second parameter code), and related information of a product specification or process specification corresponding to the insulation limiting voltage (the second parameter specification).

For example, the first parameter configuration information obtained by using the first configuration module is shown in the following Table 1.

TABLE 1 Parameter specification information Product/ Lower Upper Test Parameter Parameter Process limit Parameter limit Parameter Test item station code name specification value value value unit Insulation End- xxx Insulation Process xx V impedance of-line test specification test test voltage station xxx Insulation Process xx s rising time specification xxx Insulation Process xx s test time specification xxx Insulation Process xx s falling specification time xxx Positive Product 10 MΩ insulation specification impedance to ground xxx Negative Product 10 MΩ insulation specification impedance to ground

For example, the related configuration information of the parameter obtained based on the first parameter configuration information and the second parameter configuration information is shown in the following Table 2.

TABLE 2 Parameter specification information Product/ Lower Para- Upper Para- Test Parameter Parameter Parameter Process limit meter limit meter Test item station code name source specification value value value unit Insulation End- xxxx Insulation First Process xx V impedance of-line test configuration specification test test voltage module station xxxx Insulation Second Process xx V limiting configuration specification voltage module xxxx Lower Second Process xx limit of an configuration specification insulation module resistance of a dielectric withstand tester xxxx Insulation First Process xx s rising time configuration specification module xxxx Insulation First Process xx s test time configuration specification module xxxx Insulation First Process xx s falling configuration specification time module xxxx Positive First Product 10 MΩ insulation configuration specification impedance module to ground xxxx Negative First Product 10 MΩ insulation configuration specification impedance module to ground

In some embodiments of this disclosure, the test requirement structured system may further send the related configuration information of the parameter to the report system, and the report system checks the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter.

The data report is generated by the upper-level computer based on the test result and the parameter code. After generating the data report, the upper-level computer may send the data report to the report system.

In some embodiments of this disclosure, when sending the related configuration information of the parameter to the report system, the test requirement structured system may send the parameter code and the parameter specification information in the related configuration information of the parameter to the report system, and the report system may check the data report based on the parameter code and the parameter specification information.

202 Step: The test requirement structured system obtains related configuration information of an operation step of the test item in response to operation information of the operation step library module.

In these embodiments of this disclosure, after obtaining the related configuration information of the parameter of the test item in response to the operation information of the test item parameter configuration module, the test requirement structured system may obtain the related configuration information of the operation step of the test item in response to the operation information of the operation step library module.

It should be noted that in these embodiments of this disclosure, the operation step library module may be configured to provide related information of a standard operation step.

It should be noted that in these embodiments of this disclosure, the operation information of the operation step library module may be operation information of obtaining operation step information of the test item by using the operation step library module. When receiving the operation information of the operation step library module, in response to the operation information of the operation step library module, the test requirement structured system may obtain the operation step information of the test item corresponding to the operation information of the operation step library module.

In some embodiments of this disclosure, the related configuration information of the operation step may include an operation step sequence, operation step code, an operation step name, an operation step type, delay information, and the like. The delay information may include pre-delay and post-delay.

For example, the test item is the insulation impedance test. The related configuration information of the operation step is shown in the following Table 3.

TABLE 3 Operation step Operation Operation Pre-delay Post-delay sequence step code Operation step name step type (ms) (ms) 1 xxxx Preparation of an Other 0 20 insulation impedance test 2 Insulation impedance test Judge 0 20 positive to ground 3 Insulation impedance test Judge 0 20 negative to ground

203 Step: The test requirement structured system generates the initial test formula based on the related configuration information of the parameter and the related configuration information of the operation step.

9 FIG. 111 311 112 312 113 32 114 111 112 113 114 5 In these embodiments of this disclosure, after obtaining the related configuration information of the operation step of the test item in response to the operation information of the operation step library module, the test requirement structured system generates the initial test formula based on the related configuration information of the parameter and the related configuration information of the operation step. For example, as shown in, when generating the initial test formula, the test requirement structured system may first obtain the first parameter configuration informationof the test item by using the first configuration module. For example, the first parameter configuration information includes a name of the test item and related configuration information of some parameters. Then, the test requirement structured system may obtain the second parameter configuration informationby using the second configuration moduleand the related configuration information of the operation stepby using the operation step library module. For example, the operation step information of the test item may include an operation step name of the test item, an operation step sequence of the test item, and no-good (NG) processing of the test item. Further, after obtaining the initial test formulabased on the first parameter configuration information, the second parameter configuration information, and the related configuration information of the operation step, the test requirement structured system may store the obtained initial test formulain the server.

9 FIG. 10 FIG. 1 114 3 1 11 12 13 14 15 115 115 4 3 116 4 4 Based on the embodiment shown in, when the test system performs an end-of-line test, as shown in, the upper-level computerin the test system may obtain the initial test formulafrom the test requirement structured system, and then the upper-level computermay convert the initial test formula into the target test formula in the extensible markup language format by using the file conversion module. The upper-level computer performs automatic matching and loading on the test item libraryand the instruction libraryby using the file conversion module, to generate the target test formula with an executable instruction. In addition, the upper-level computer further supports formula modification. For example, the upper-level computer may include a test item customizing moduleto support an operation of customizing a test item and a formula modification moduleconfigured to modify and maintain the target test formula. After controlling the test device to perform testing, the upper-level computer may further generate the data reportbased on the test result and the parameter code, and send the data reportto the report system. In addition, the test requirement structured systemmay also send the related configuration information of the parameter, such as the parameter code and the parameter specification information in the related configuration information of the parameter to the report system, so that the report systemcan check the data report based on the parameter code in the related configuration information of the parameter to determine whether the parameter code in the data report is consistent with the parameter code in the related configuration information of the parameter. This improves accuracy of the data report.

In these embodiments of this disclosure, software for automatically obtaining the initial test formula and the file conversion module may be developed based on C#, so that the initial test formula on the server can be automatically extracted and matched and reformulated based on the integrated test item library and instruction library on the upper-level computer to generate the formal target test formula. The test requirement structured system may automatically transmit the parameter code and the parameter specification information to the report system to automatically generate a product test data collection group, and the report system may check and perform error prevention on the data report corresponding to the test result. This further improves the test accuracy.

In conclusion, in these embodiments of this disclosure, a product test requirement may be divided into a plurality of structured modules by using the test requirement structured system, such as the first configuration module, the second configuration module, and the operation step library module, the modules can be combined and configured to generate the initial test formula, the initial test formula is stored in the server, and then the upper-level computer in the test device interacts with the test requirement structured system to automatically convert the initial test formula into the target test formula in the extensible markup language format. In addition, the report system can receive the data report and automatically collect test data. Based on the foregoing manner, the test system can automatically transmit the test data. This reduces an error rate of manual formula editing and improves accuracy of the test formula, thereby improving detection quality.

In these embodiments of this disclosure, the test system may include an upper-level computer, a test device, and a test requirement structured system. The upper-level computer may obtain an initial test formula from the test requirement structured system in response to a test formula download instruction, where the test requirement structured system is configured to generate the initial test formula based on a test item requirement, and the initial test formula includes related information of the test item requirement. The upper-level computer converts the initial test formula into a target test formula in an extensible markup language format. The upper-level computer controls, based on the target test formula, the test device to test a product to obtain a test result. It can be seen that the test requirement structured system may generate the initial test formula based on the test item requirement. When receiving the test formula download instruction, the upper-level computer may directly obtain the initial test formula from the test requirement structured system, and then convert the initial test formula into the target test formula in the extensible markup language format, so that the target test formula for performing testing can be obtained without manual configuration on the upper-level computer. This can improve generation efficiency of a test formula and accuracy of the test formula. In this way, the upper-level computer can directly test the product based on the target test formula. This can effectively improve test efficiency.

11 FIG. 0 1 2 3 4 2 1 3 1 4 1 3 Based on the foregoing embodiments, another embodiment of this disclosure provides a test system. As shown in, the test systemmay include an upper-level computer, a test device, a test requirement structured system, and a report system. The test devicemay be connected to the upper-level computer, the test requirement structured systemmay be connected to the upper-level computer, and the report systemmay be connected to the upper-level computerand the test requirement structured system.

3 The test requirement structured systemmay be configured to generate an initial test formula based on a test item requirement, where the initial test formula includes related information of the test item requirement.

1 The upper-level computermay be configured to: obtain the initial test formula from the test requirement structured system in response to a test formula download instruction, convert the initial test formula into a target test formula in an extensible markup language format, and control, based on the target test formula, the test device to test a product to obtain a test result.

1 In some embodiments, the upper-level computermay be further configured to perform matching processing on the initial test formula and a test item library to obtain test item data in an extensible markup language format, perform matching processing on the initial test formula and an instruction library to obtain an executable instruction in an extensible markup language format, and generate the target test formula based on the test item data in the extensible markup language format and the executable instruction in the extensible markup language format.

1 3 In some embodiments, the upper-level computermay be further configured to: obtain, through querying, the initial test formula from test formula data stored in the test requirement structured systembased on identification information indicated by the test formula download instruction, and download the initial test formula, where the identification information includes project identification information, production line identification information, and device identification information.

1 In some embodiments, when receiving formula modify operation information, the upper-level computermay be further configured to modify the target test formula to obtain a modified test formula, where the formula modify operation information includes test item add operation information, test item delete operation information, and execution sequence modify operation information; and the upper-level computer controls, based on the modified test formula, the test device to test the product.

1 3 3 In some embodiments, the upper-level computermay be further configured to send the modified test formula to the test requirement structured system, so that the test requirement structured systemcan store the modified test formula.

1 4 In some embodiments, the upper-level computermay be further configured to generate a data report based on the test result and parameter code in the initial test formula, and send the data report to the report system.

3 31 32 In some embodiments, the test requirement structured systemmay include a test item parameter configuration moduleand an operation step library module.

31 The test item parameter configuration modulemay be configured to obtain related configuration information of a parameter of a test item based on corresponding operation information.

31 311 312 The test item parameter configuration modulemay include a first configuration moduleand a second configuration module.

311 312 32 The first configuration modulemay be configured to obtain first parameter configuration information of the test item based on first operation information. The second configuration modulemay be configured to obtain second parameter configuration information of the test item based on second operation information. The operation step library modulemay be configured to obtain operation step information of the test item based on operation information of the operation step library module.

3 4 The test requirement structured systemmay be further configured to send the related configuration information of the parameter to the report system.

4 The report systemmay be configured to: receive the related configuration information of the parameter sent by the test requirement structured system and the data report sent by the upper-level computer, and check the data report based on the related configuration information of the parameter to determine whether the data report matches the related configuration information of the parameter.

1 In some embodiments, the upper-level computermay be further configured to control, based on the target test formula, the test device to perform an insulation impedance test on the product to obtain a test result of the insulation impedance test. The test result of the insulation impedance test includes a parameter test result for testing a parameter of the insulation impedance test. The parameter of the insulation impedance test includes at least one of an insulation test voltage, an insulation limiting voltage, an insulation rising time, an insulation falling time, a positive insulation impedance to ground, and a negative insulation impedance to ground.

1 In some embodiments, the upper-level computermay be further configured to control, based on the target test formula, the test device to perform short circuit detection on the product to obtain a test result of the short circuit detection. The test result of the short circuit detection includes a parameter test result for testing a parameter of the short circuit detection. The parameter of the short circuit detection includes at least one of a positive resistance to ground, a negative resistance to ground, and a positive-negative resistance.

1 In some embodiments, the upper-level computermay be further configured to control, based on the target test formula, the test device to perform a 12 V negative electrode resistance test on the product to obtain a test result of the 12 V negative electrode resistance test. The test result of the 12 V negative electrode resistance test includes a parameter test result for testing a parameter of the 12 V negative electrode resistance test. The parameter of the 12 V negative electrode resistance test includes a conducting resistance.

1 In some embodiments, the upper-level computermay be further configured to control, based on the target test formula, the test device to perform a program burning test on the product to obtain a test result of the program burning test. The test result of the program burning test includes a parameter test result for testing a parameter of the program burning test. The parameter of the program burning test includes at least one of boot version information, battery management unit software version information, and battery management unit hardware version information.

In these embodiments of this disclosure, the test system may include an upper-level computer, a test device, and a test requirement structured system. The test device is connected to the upper-level computer, and the test requirement structured system is connected to the upper-level computer. The test requirement structured system is configured to generate an initial test formula based on a test item requirement. The initial test formula includes related information of the test item requirement. The upper-level computer is configured to: obtain the initial test formula from the test requirement structured system in response to test formula download instruction, convert the initial test formula into a target test formula in an extensible markup language format, and control, based on the target test formula, the test device to test a product to obtain a test result. It can be seen that the upper-level computer in the test system is connected to the test device and the test requirement structured system, so that the upper-level computer can obtain the initial test formula from the test requirement structured system when receiving the test formula download instruction. The initial test formula is generated by the test requirement structured system, and the upper-level computer may automatically convert the initial test formula into the target test formula in the extensible markup language format. This improves obtaining efficiency of the test formula. In this way, the upper-level computer can control, based on the target test formula, the test device to test the product. This improves test efficiency.

Persons skilled in the art should understand that the embodiments of this disclosure may be provided as a method, a system, or a computer program product. Therefore, this disclosure may use a form of a hardware embodiment, a software embodiment, or an embodiment with a combination of software and hardware.

The foregoing descriptions are merely example embodiments of this disclosure and are not intended to limit the protection scope of this disclosure.

The embodiments of this disclosure provide an end-of-line test method, applied to a test system. The test system includes an upper-level computer, a test device, and a test requirement structured system. This can effectively improve generation efficiency and accuracy of a test formula, thereby improving test efficiency.